Sphingolipids in neurodegeneration

doi:10.1007/s12017-010-8135-5

Review

. 2010 Dec;12(4):301-5.

doi: 10.1007/s12017-010-8135-5. Epub 2010 Aug 25.

Sphingolipids in neurodegeneration

Norman J Haughey¹

Affiliations

Affiliation

¹ Department of Neurology, Richard T. Johnson Division of Neuroimmunology and Neurological Infections, The Johns Hopkins University School of Medicine, Meyer 6-109, 600 North Wolfe Street, Baltimore, MD 21287, USA. nhaughe1@jhmi.edu

PMID: 20737248
PMCID: PMC4083244
DOI: 10.1007/s12017-010-8135-5

Review

Sphingolipids in neurodegeneration

Norman J Haughey. Neuromolecular Med. 2010 Dec.

. 2010 Dec;12(4):301-5.

doi: 10.1007/s12017-010-8135-5. Epub 2010 Aug 25.

Author

Norman J Haughey¹

Affiliation

¹ Department of Neurology, Richard T. Johnson Division of Neuroimmunology and Neurological Infections, The Johns Hopkins University School of Medicine, Meyer 6-109, 600 North Wolfe Street, Baltimore, MD 21287, USA. nhaughe1@jhmi.edu

PMID: 20737248
PMCID: PMC4083244
DOI: 10.1007/s12017-010-8135-5

Abstract

Although the brain contains a high content of sphingolipids, we know relatively little about the roles that sphingolipids play in regulating neural functions. Once regarded only for their structural roles in maintaining the integrity of cellular and sub-cellular compartments, it is now apparent that many sphingolipid species are biologically active and play important roles in regulating signaling events. Recent technological and scientific advances are rapidly increasing our knowledge of the roles that sphingolipids play in regulating normal neural activity. Likewise, we are beginning to understand how perturbations in sphingolipid metabolism contribute to the pathogenesis of a variety of neurodegenerative conditions. In this special issue of NeuroMolecular Medicine, we present a series of review articles that summarize new and emerging technologies for the analysis of sphingolipids, sphingolipid metabolic pathways, and how dysfunctions in sphingolipid metabolism contribute to neurodegeneration in lysosomal storage disorders, Alzheimer's disease and Multiple Sclerosis.

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Cited by

Glycosphingolipids.
Chiricozzi E, Aureli M, Mauri L, Di Biase E, Lunghi G, Fazzari M, Valsecchi M, Carsana EV, Loberto N, Prinetti A, Sonnino S. Chiricozzi E, et al. Adv Exp Med Biol. 2021;1325:61-102. doi: 10.1007/978-3-030-70115-4_3. Adv Exp Med Biol. 2021. PMID: 34495530
Heat-induced phosphatidylserine changes drive HSPA1A's plasma membrane localization.
Low J, Altman R, Badolian A, Cuaresma AB, Briseño C, Keshet U, Fiehn O, Stahelin RV, Nikolaidis N. Low J, et al. Cell Stress Chaperones. 2025 Jul 11;30(5):100092. doi: 10.1016/j.cstres.2025.100092. Online ahead of print. Cell Stress Chaperones. 2025. PMID: 40653262 Free PMC article.
Lipid rafts in neurodegeneration and neuroprotection.
Sonnino S, Aureli M, Grassi S, Mauri L, Prioni S, Prinetti A. Sonnino S, et al. Mol Neurobiol. 2014 Aug;50(1):130-48. doi: 10.1007/s12035-013-8614-4. Epub 2013 Dec 22. Mol Neurobiol. 2014. PMID: 24362851 Review.
From Molecules to the Clinic: Linking Schizophrenia and Metabolic Syndrome through Sphingolipids Metabolism.
Castillo RI, Rojo LE, Henriquez-Henriquez M, Silva H, Maturana A, Villar MJ, Fuentes M, Gaspar PA. Castillo RI, et al. Front Neurosci. 2016 Nov 8;10:488. doi: 10.3389/fnins.2016.00488. eCollection 2016. Front Neurosci. 2016. PMID: 27877101 Free PMC article. Review.
Shotgun Sphingolipid Analysis of Human Aqueous Humor.
Trzeciecka A, Arbelo U, Barron A, Edwards G, Sampathkumar S, Toris C, Bhattacharya SK. Trzeciecka A, et al. Methods Mol Biol. 2018;1695:97-107. doi: 10.1007/978-1-4939-7407-8_10. Methods Mol Biol. 2018. PMID: 29190022 Free PMC article.

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References

1. Abulrob A, Tauskela JS, Mealing G, Brunette E, Faid K, Stanimirovic D. Protection by cholesterol-extracting cyclodextrins: A role for N-methyl-D-aspartate receptor redistribution. Journal of Neurochemistry. 2005;92:1477–1486. - PubMed
1. Assaife-Lopes N, Sousa VC, Pereira DB, Ribeiro JA, Chao MV, Sebastiao AM. Activation of adenosine A2A receptors induces TrkB translocation and increases BDNF-mediated phospho-TrkB localization in lipid rafts: Implications for neuromodulation. Journal of Neuroscience. 2010;30:8468–8480. - PMC - PubMed
1. Bajjalieh SM, Martin TF, Floor E. Synaptic vesicle ceramide kinase. A calcium-stimulated lipid kinase that co-purifies with brain synaptic vesicles. Journal of Biological Chemistry. 1989;264:14354–14360. - PubMed
1. Bandaru VV, McArthur JC, Sacktor N, Cutler RG, Knapp EL, Mattson MP, et al. Associative and predictive biomarkers of dementia in HIV-1-infected patients. Neurology. 2007;68:1481–1487. - PMC - PubMed
1. Bandaru VV, Troncoso J, Wheeler D, Pletnikova O, Wang J, Conant K, et al. ApoE4 disrupts sterol and sphingolipid metabolism in Alzheimer’s but not normal brain. Neurobiology of Aging. 2009;30:591–599. - PMC - PubMed

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[1] Abulrob A, Tauskela JS, Mealing G, Brunette E, Faid K, Stanimirovic D. Protection by cholesterol-extracting cyclodextrins: A role for N-methyl-D-aspartate receptor redistribution. Journal of Neurochemistry. 2005;92:1477–1486. - PubMed

[2] Abulrob A, Tauskela JS, Mealing G, Brunette E, Faid K, Stanimirovic D. Protection by cholesterol-extracting cyclodextrins: A role for N-methyl-D-aspartate receptor redistribution. Journal of Neurochemistry. 2005;92:1477–1486. - PubMed

[3] Assaife-Lopes N, Sousa VC, Pereira DB, Ribeiro JA, Chao MV, Sebastiao AM. Activation of adenosine A2A receptors induces TrkB translocation and increases BDNF-mediated phospho-TrkB localization in lipid rafts: Implications for neuromodulation. Journal of Neuroscience. 2010;30:8468–8480. - PMC - PubMed

[4] Assaife-Lopes N, Sousa VC, Pereira DB, Ribeiro JA, Chao MV, Sebastiao AM. Activation of adenosine A2A receptors induces TrkB translocation and increases BDNF-mediated phospho-TrkB localization in lipid rafts: Implications for neuromodulation. Journal of Neuroscience. 2010;30:8468–8480. - PMC - PubMed

[5] Bajjalieh SM, Martin TF, Floor E. Synaptic vesicle ceramide kinase. A calcium-stimulated lipid kinase that co-purifies with brain synaptic vesicles. Journal of Biological Chemistry. 1989;264:14354–14360. - PubMed

[6] Bajjalieh SM, Martin TF, Floor E. Synaptic vesicle ceramide kinase. A calcium-stimulated lipid kinase that co-purifies with brain synaptic vesicles. Journal of Biological Chemistry. 1989;264:14354–14360. - PubMed

[7] Bandaru VV, McArthur JC, Sacktor N, Cutler RG, Knapp EL, Mattson MP, et al. Associative and predictive biomarkers of dementia in HIV-1-infected patients. Neurology. 2007;68:1481–1487. - PMC - PubMed

[8] Bandaru VV, McArthur JC, Sacktor N, Cutler RG, Knapp EL, Mattson MP, et al. Associative and predictive biomarkers of dementia in HIV-1-infected patients. Neurology. 2007;68:1481–1487. - PMC - PubMed

[9] Bandaru VV, Troncoso J, Wheeler D, Pletnikova O, Wang J, Conant K, et al. ApoE4 disrupts sterol and sphingolipid metabolism in Alzheimer’s but not normal brain. Neurobiology of Aging. 2009;30:591–599. - PMC - PubMed

[10] Bandaru VV, Troncoso J, Wheeler D, Pletnikova O, Wang J, Conant K, et al. ApoE4 disrupts sterol and sphingolipid metabolism in Alzheimer’s but not normal brain. Neurobiology of Aging. 2009;30:591–599. - PMC - PubMed

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Sphingolipids in neurodegeneration

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